Product Description
Starshine Drive NCJ Series Helical Geared Motor
Features:
- High efficiency and energy saving: low energy, low noise, small vibration, low temperature rise, wide output speed, and high efficiency: 92%-96%.
- With wide variable range of voltage and frequency motor from 20HZ to 60HZ, and voltage from 320V to 420V.
- Modular design with strong interchangeability.
- Iron or aluminum casting house, good rigidity, high strength and excellent heat-loss.
- Advanced design: gear pair processed by carburizing and quenching heat treatment, and unique low noise gear tooth design to ensure the service life.
- Free maintenance: special lubrication to guarantee normal running for 20,000 hours without oil replacement;
- Easy replacement: can replace cycloid gearbox and upgrade product
Technical parameters
| Type | Old Type | Output Torque | Output Shaft Dia. |
| SNR02 | NCJ02 | 130N.m | φ22 |
| SNR03 | NCJ03 | 250N.m | φ28 |
| SNR04 | NCJ04 | 500N.m | φ32 |
| SNR05 | NCJ05 | 750N.m | φ40 |
| SNRW03Y | NCJT03Y2 | 250N.m | φ35 |
| SNRL04Y | NCJF04Y2 | 450N.m | φ35 |
About CHINAMFG Drive
ZheJiang CHINAMFG Drive Co.,Ltd(Starshine) have a strong technical force with over 350 employees at present, including over 30 engineering technicians, 30 quality inspectors, covering an area of 80000 square CHINAMFG and kinds of advanced processing machines and testing equipments. We have a good foundation for the industry application development and service of high-end speed reducers & variators owning to the provincial engineering technology research center,the lab of gear speed reducers, and the base of modern R&D.
Our products are widely used in ceramic industry, glass industry, woodworking machinery , high voltage switch, food & beverage, packaging & printing, Storage & logistics, hoisting & transportation facilities…etc , and CHINAMFG technically provide the professional product & service for the medium and high-end customers, and our gearboxes are best-selling in domestic, and even in abroad , such as in Europe, North America, South America, Middle East, South Asia, Southeast Asia, Africa…etc.
In the future , CHINAMFG will hold the creed of “serving customer, diligence & simplicity, self-criticism, innovation, honesty, teamwork”, and the concept of “quality creates value” to focus on the customers’ requirements and provide them the competitive transmission solution and create value for them constantly, and make a high-end equipment manufacturing industry and create a preferred brand of replacing import products and upgrading continuously for the end users.
Team
Quality Control
Quality:Insist on Improvement,Strive for CHINAMFG With the development of equipment manufacturing indurstry,customer never satirsfy with the current quality of our products,on the contrary,wcreate the value of quality.
Quality policy:to enhance the overall level in the field of power transmission
Quality View:Continuous Improvement , pursuit of CHINAMFG
Quality Philosophy:Quality creates value
3. Incoming Quality Control
To establish the AQL acceptable level of incoming material control, to provide the material for the whole inspection, sampling, immunity. On the acceptance of qualified products to warehousing, substandard goods to take return, check, rework, rework inspection; responsible for tracking bad, to monitor the supplier to take corrective measures to prevent recurrence.
4. Process Quality Control
The manufacturing site of the first examination, inspection and final inspection, sampling according to the requirements of some projects, judging the quality change trend; found abnormal phenomenon of manufacturing, and supervise the production department to improve, eliminate the abnormal phenomenon or state
5. FQC(Final QC)
After the manufacturing department will complete the product, stand in the customer’s position on the finished product quality verification, in order to ensure the quality of customer expectations and needs.
6. OQC(Outgoing QC)
After the product sample inspection to determine the qualified, allowing storage, but when the finished product from the warehouse before the formal delivery of the goods, there is a check, this is called the shipment inspection.Check content:In the warehouse storage and transfer status to confirm, while confirming the delivery of the product is a product inspection to determine the qualified products.
Packing
Delivery
/* January 22, 2571 19:08:37 */!function(){function s(e,r){var a,o={};try{e&&e.split(“,”).forEach(function(e,t){e&&(a=e.match(/(.*?):(.*)$/))&&1
| Application: | Motor, Machinery, Agricultural Machinery |
|---|---|
| Function: | Distribution Power, Change Drive Torque, Change Drive Direction, Speed Changing, Speed Reduction |
| Layout: | Coaxial |
| Hardness: | Hardened Tooth Surface |
| Installation: | Horizontal Type |
| Step: | Double-Step |
| Customization: |
Available
| Customized Request |
|---|
Can aluminum gears withstand high torque and load conditions?
Aluminum gears have certain limitations when it comes to high torque and load conditions. Here’s a detailed explanation:
1. Strength: Aluminum is generally not as strong as materials like steel or cast iron. While aluminum alloys used for gears can offer good strength, they may not be as robust as traditional materials in terms of absolute strength. Under extremely high torque or heavy load conditions, there is a risk of deformation or failure of aluminum gears.
2. Design Considerations: To ensure that aluminum gears can withstand high torque and load conditions, proper design considerations are crucial. Factors such as gear geometry, tooth profile, tooth thickness, and material selection need to be carefully evaluated and optimized. Reinforcements, such as ribbing or thicker sections, can be incorporated into the gear design to enhance strength and load-bearing capacity.
3. Heat Dissipation: Aluminum has good thermal conductivity, which helps dissipate heat generated during high torque or heavy load operations. Heat can affect the performance and integrity of gears, leading to increased wear or potential failure. Proper lubrication and cooling mechanisms should be implemented to manage heat buildup and ensure optimal gear performance.
4. Surface Treatments: Surface treatments like hard anodizing or coatings can be applied to aluminum gears to improve their hardness, wear resistance, and surface durability. These treatments help mitigate the effects of high torque and load conditions, reducing the risk of surface damage or wear.
5. Application Considerations: The suitability of aluminum gears for high torque and load conditions depends on the specific application requirements. In some cases, aluminum gears may be well-suited for moderate torque and load applications, such as in certain automotive or machinery applications. However, in heavy-duty or extreme conditions, alternative materials like steel or cast iron may be more appropriate.
It’s important to note that engineering judgment, proper design practices, and thorough evaluation of the specific operating conditions are essential in determining whether aluminum gears can withstand high torque and load conditions. In critical applications where high torque or heavy loads are expected, gear manufacturers may choose materials with higher strength and load-bearing capabilities.
In summary, while aluminum gears can be used in certain high torque and load conditions, their suitability depends on factors such as gear design, material selection, heat dissipation, surface treatments, and application requirements. Careful consideration and engineering expertise are necessary to ensure safe and reliable operation of aluminum gears under these conditions.
How do aluminum gears handle shock and impact loads?
Aluminum gears can effectively handle shock and impact loads. Here’s a detailed explanation:
1. Material Strength: Aluminum alloys used for gears exhibit good strength properties, allowing them to withstand sudden shock and impact loads. While aluminum is not as strong as materials like steel, proper gear design and material selection can ensure that aluminum gears meet the required load-bearing capacity for specific applications.
2. Flexibility and Ductility: Aluminum possesses inherent flexibility and ductility, which can help absorb and distribute impact forces. When subjected to shock or impact loads, aluminum gears can deform slightly to dissipate energy and reduce the risk of immediate failure. This characteristic allows aluminum gears to handle sudden and high-intensity loads without catastrophic damage.
3. Resilience: Aluminum gears have a certain degree of resilience, meaning they can recover their original shape after experiencing deformation from shock or impact loads. This resilience allows aluminum gears to continue functioning effectively even after encountering transient high loads.
4. Design Considerations: Proper gear design is crucial for handling shock and impact loads effectively. Engineers can incorporate features such as reinforced tooth profiles, optimized gear geometry, and appropriate surface treatments to enhance the strength and durability of aluminum gears. These design considerations help distribute stress evenly across the gear teeth, minimizing the risk of localized failures.
5. Load Distribution: Aluminum gears can distribute shock and impact loads over a larger contact area, reducing the concentration of stress on individual gear teeth. This load distribution capability prevents localized stress points and helps prevent premature tooth wear or breakage.
6. Surface Treatments: Surface treatments like shot peening or case hardening can be applied to aluminum gears to enhance their resistance to shock and impact loads. These treatments introduce compressive stresses on the gear surface, improving its fatigue strength and resistance to crack initiation and propagation caused by sudden loads.
7. Compatibility with Other Components: Aluminum gears can be designed to work in conjunction with other components in the system to handle shock and impact loads. By considering the overall system dynamics and ensuring compatibility between gears, bearings, shafts, and housing materials, the entire system can better absorb and distribute impact forces, improving its overall resilience.
8. Testing and Validation: Aluminum gears undergo rigorous testing and validation processes to ensure their performance under shock and impact loads. These tests simulate real-world operating conditions, including sudden impacts and high-intensity loads, to assess the gear’s durability and reliability. Manufacturers rely on these tests to verify that aluminum gears can handle the expected shock and impact loads in specific applications.
In summary, aluminum gears handle shock and impact loads through their material strength, flexibility, ductility, resilience, design considerations, load distribution capability, surface treatments, compatibility with other components, and validation through testing. By employing appropriate design practices and material selection, aluminum gears can reliably and effectively handle sudden and high-intensity loads in various applications.
Are there different types of aluminum alloys used for making gears?
Yes, there are different types of aluminum alloys used for making gears. Here’s a detailed explanation:
1. Aluminum-Copper Alloys: Aluminum-copper alloys, such as the 2000 series (e.g., 2014, 2024), are commonly used for gears. These alloys offer good strength and excellent fatigue resistance, making them suitable for gears subjected to moderate to high loads. They also exhibit good machinability, which facilitates gear manufacturing processes.
2. Aluminum-Silicon Alloys: Aluminum-silicon alloys, particularly the 4000 series (e.g., 4032), are used for gears requiring high wear resistance and low friction. These alloys have good mechanical properties and can withstand high contact pressures. They are often used in applications where gears operate in harsh conditions or require self-lubrication.
3. Aluminum-Zinc Alloys: Aluminum-zinc alloys, such as the 7000 series (e.g., 7075), are known for their high strength and excellent fatigue resistance. These alloys are commonly used in aerospace applications where lightweight gears with exceptional strength are required. However, they may have lower machinability compared to other aluminum alloys.
4. Aluminum-Magnesium Alloys: Aluminum-magnesium alloys, including the 5000 series (e.g., 5052, 5083), offer a good combination of strength, corrosion resistance, and weldability. These alloys are suitable for gears exposed to marine or corrosive environments. They are also commonly used in general machinery and equipment manufacturing.
5. Aluminum-Zinc-Magnesium Alloys: Aluminum-zinc-magnesium alloys, such as the 7000 series (e.g., 7049), provide an excellent balance of strength, corrosion resistance, and lightweight properties. These alloys are used in high-performance gears, particularly in industries like aerospace and motorsports.
6. Other Alloy Combinations: There are also specialized aluminum alloys tailored for specific gear applications. For example, aluminum-tin alloys are used for gears requiring excellent wear resistance and dimensional stability. These alloys are often employed in automotive applications.
It’s important to note that the selection of the aluminum alloy depends on the specific requirements of the gear application, including load conditions, wear resistance, corrosion resistance, temperature, and manufacturing considerations. Each alloy has its own unique properties and advantages, allowing gear manufacturers to choose the most suitable alloy for their specific needs.
In summary, different types of aluminum alloys, such as aluminum-copper, aluminum-silicon, aluminum-zinc, aluminum-magnesium, aluminum-zinc-magnesium, and specialized alloy combinations, are used for making gears. The choice of alloy depends on factors such as strength requirements, wear resistance, corrosion resistance, and specific application considerations.
editor by Dream 2024-04-19